Fault tolerant routing implementation mechanism for irregular 2D mesh NoCs
Fault tolerant routing implementation mechanism for irregular 2D mesh NoCs
Network-on-Chip (NoC) is one of the promising communication architecture to provide scalability for many core designs. However, deep sub-micron technology related effects impact NoC reliability. Hence under this condition NoC must continue to provide at-least a path between each pair of its components as long as path is available. In this paper we propose fault tolerant routing implementation solution, targeting the implementation of any distributed routing algorithm for regular as well as irregular 2D meshes generated due to failures. The proposed approach is logic based and does not use any routing table to implement a routing algorithm. Experimental results show that proposed method provides 14% reduction in area when compared with existing logic based on-chip fault tolerant implementations. Further, proposed approach degrades performance gracefully while preserving 100% coverage to all irregular topologies generated from 2D mesh.
implementation, logic based, Networks-on-chip
Bishnoi, Rimpy
eb225b32-9ddb-4360-9b0b-d2e26a5e843e
Laxmi, Vijay
e79a9a3a-cd6b-45d6-8a03-9a5891453a95
Gaur, Manoj Singh
589ebe4b-7e06-4565-b109-8e268f8e12db
Ramlee, Radi Husin Bin
52be7394-5407-41df-9045-baa68e722418
Zwolinski, Mark
adfcb8e7-877f-4bd7-9b55-7553b6cb3ea0
7 January 2015
Bishnoi, Rimpy
eb225b32-9ddb-4360-9b0b-d2e26a5e843e
Laxmi, Vijay
e79a9a3a-cd6b-45d6-8a03-9a5891453a95
Gaur, Manoj Singh
589ebe4b-7e06-4565-b109-8e268f8e12db
Ramlee, Radi Husin Bin
52be7394-5407-41df-9045-baa68e722418
Zwolinski, Mark
adfcb8e7-877f-4bd7-9b55-7553b6cb3ea0
Bishnoi, Rimpy, Laxmi, Vijay, Gaur, Manoj Singh, Ramlee, Radi Husin Bin and Zwolinski, Mark
(2015)
Fault tolerant routing implementation mechanism for irregular 2D mesh NoCs.
Nurmi, Jari, Daniel, Ondrej, Liljeberg, Pasi, Rahkonen, Timo and Nielsen, Ivan Ring
(eds.)
In NORCHIP 2014 - 32nd NORCHIP Conference: The Nordic Microelectronics Event.
IEEE..
(doi:10.1109/NORCHIP.2014.7004709).
Record type:
Conference or Workshop Item
(Paper)
Abstract
Network-on-Chip (NoC) is one of the promising communication architecture to provide scalability for many core designs. However, deep sub-micron technology related effects impact NoC reliability. Hence under this condition NoC must continue to provide at-least a path between each pair of its components as long as path is available. In this paper we propose fault tolerant routing implementation solution, targeting the implementation of any distributed routing algorithm for regular as well as irregular 2D meshes generated due to failures. The proposed approach is logic based and does not use any routing table to implement a routing algorithm. Experimental results show that proposed method provides 14% reduction in area when compared with existing logic based on-chip fault tolerant implementations. Further, proposed approach degrades performance gracefully while preserving 100% coverage to all irregular topologies generated from 2D mesh.
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More information
Published date: 7 January 2015
Venue - Dates:
32nd NORCHIP Conference, NORCHIP 2014, , Tampere, Finland, 2014-10-27 - 2014-10-28
Keywords:
implementation, logic based, Networks-on-chip
Identifiers
Local EPrints ID: 477980
URI: http://eprints.soton.ac.uk/id/eprint/477980
PURE UUID: 8a31e986-a4e1-4f40-aeb0-a02c8594e8ce
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Date deposited: 19 Jun 2023 16:38
Last modified: 17 Mar 2024 02:35
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Contributors
Author:
Rimpy Bishnoi
Author:
Vijay Laxmi
Author:
Manoj Singh Gaur
Author:
Radi Husin Bin Ramlee
Author:
Mark Zwolinski
Editor:
Jari Nurmi
Editor:
Ondrej Daniel
Editor:
Pasi Liljeberg
Editor:
Timo Rahkonen
Editor:
Ivan Ring Nielsen
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